For the car whose velocity is plotted below, in which of the equal time segments 0–2 seconds, 2–4 seconds, or 4–6 seconds is the distance traveled by the car the greatest? Explain.
For the car whose velocity is plotted below, in which of the equal time segments 0–2...
Here are three graphs of velocity plotted against time. Below there are several situations. For each situation select the appropriate velocity plot which represents the velocity over the time period mentioned. Each situtaion will state the direction of the axis (eg, 'choose the positive direction to be upward' or 'choose the direction to the right') 20 A 15 20 25 Time 25 20 15 10 Time 10 10 Time A ball is tossed up into the air. Choose the positive...
6. The velocity vs. time graph of an object is shown below. Figure out the total distance traveled by the object. Show your work. Distance- meters 0 0 2 6 Time (seconds) 8 10 (over)
13. Find the magnitudes of the initial (at t 0) velocity and acceleration of the auto respectively At time t 0 a car has a velocity of 16 m/s. It slows down with an acceleration given by -0.50t, in m/s2 for t in seconds 14. Find the time when it stops 15. Find the distance it has traveled tt the end of 4.0 s 16. Find the distance it has traveled by the time it stops
For each of the velocity-time graphs shown below, draw the corresponding acceleration- time graph. 2-0 0 2 46 8 I time (s) i time (s) I i time (s) 0 0 0 2 4 6 8 0 2 468 time (s) time (s) time (s) A car moves along a line (the positive x-axis). Fill in the table below with the sign (t or-) of the velocity and acceleration of the car for each of the motions described. 2 Acceleration...
At time t = 0 a car has a velocity of 16 m/s. It slows down with an acceleration given by a = 0.50t, in m/s2 for t in seconds. At the end of 2.0 s it has traveled: A) 0 B) 12 m C) 14 m D) 34 m E) 33 m. The answer is E. I got D. Why is the answer E?
Increasing Velocity V, 0 1 2 3 4 5 6 7 8 The graph a distance traveled by the car from a time of 1.60 to 3.30 s the speed of a car traveling in a straight line as a function of time. At t 0 s the speed of the car is 2.30 m/s. It accelerates uniformly and reaches a speed of 9.70 m/s in 8.00 s. Calculate Tries 4/6 Previous Tries
2. The following velocity-vs-time graph represents the motion of a race car during the first few sec- onds of a race. The track may be assumed to be straight during this period. Afterwards the car continues to travel at a constant speed around the rest of the track, ending its lap back on the start/finish line. [16 points] velocity (m/s) 45 25 -time (S) 6 (a) What is the car's velocity after one second? [3] (b) How far has it...
The velocity of a cart on a track traveling along the +x direction is plotted in the figure. 30 25 20 z0 25 25 Evaluate the x-acceleration of the cart at time t 6.6 seconds. Submit Answer Tries 0/10 Evaluate the x-acceleration at 16.3 seconds. Submit Answer Tries 0/10 Evaluate the x-acceleration at 20.9 seconds. Submit Answer Tries O/10 Evaluate the distance the cart travels from 18.0 seconds to 22.0 seconds. Submit Answer Tries 0/10
time (seconds) |0|5 |10 velocity (ft/sec) 0-97 Velocity values for a remote control car, driving on a straight track, were measured and recorded in the table shown above. Negative velocity values correspond to the car moving left, and positive velocity values correspond to moving right. the car Find the n-2 Right Hand Sum estimate of the vehicle's displacement. Answer with a number only, not units. time (seconds) |0|5 |10 velocity (ft/sec) 0-97 Velocity values for a remote control car, driving...
A car is initially at rest on a straight road. The histogram below shows the car's speed along that road (the x-axis) as a function of time. Calculate the distance traveled by the car during the first 5 s. Calculate the distance traveled by the car from t=10 to t=14 s. Calculate the average speed of the car from t = 6 s to t=9 s. A x-Velocity (1/5) nNHO @ 1 2 3 4 5 9 10 11 12...